Identyfikatory
Warianty tytułu
Ocena ryzyka zanieczyszczenia wód podziemnych w pierwszej eksploatowanej warstwie wodonośnej na terenie gminy Bodzentyn, województwo świętokrzyskie
Języki publikacji
Abstrakty
The objective of this study is to assess the threat of contaminating groundwater originating from the first exploitative aquifer level in the municipality of Bodzentyn within the Świętokrzyskie Voivodship. The analysis included 23 representative groundwater intakes from MHP 816 Bodzentyn sheet. The various potential sources of groundwater contamination were identified. The intrinsic vulnerability of the first aquifer to contamination and the water recharge area were determined. In the results intakes potentially threatened by anthropogenic pollution were indicated. Providing information on the potential risks of groundwater contamination will help better plan environmental and decision-making activities in this area. The results can serve as a basis for policy development, land use and sustainable resource management in the municipality of Bodzentyn.
Celem niniejszego opracowania jest ocena zagrożenia zanieczyszczeniem wód podziemnych pochodzących z pierwszego eksploatowanego poziomu wodonośnego w gminie Bodzentyn na terenie województwa świętokrzyskiego. Analizą objęto 23 reprezentatywne ujęcia wód podziemnych z arkusza MHP 816 Bodzentyn. Zidentyfikowano różne potencjalne źródła zanieczyszczenia wód podziemnych. Określono wewnętrzną podatność pierwszego poziomu wodonośnego na zanieczyszczenie oraz obszar zasilania. W wynikach wskazano ujęcia potencjalnie zagrożone zanieczyszczeniami antropogenicznymi. Dostarczenie informacji na temat potencjalnego ryzyka zanieczyszczenia wód podziemnych pomoże lepiej zaplanować działania środowiskowe i decyzyjne na tym obszarze. Wyniki mogą służyć jako podstawa do rozwoju polityki, zagospodarowania przestrzennego i zrównoważonego zarządzania zasobami w gminie Bodzentyn.
Czasopismo
Rocznik
Tom
Strony
269--278
Opis fizyczny
Bibliogr. 27 poz., rys., tab.
Twórcy
Bibliografia
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- [5] Link A., El-Hokayem L., Usman M., Conrad C., Reinecke R., Berger M., Wada Y., Coroama V., Finkbeiner M.: Groundwater-dependent ecosystems at risk - global hotspot analysis and implications. Environ. Res. Lett., 18 (2023), 094026.
- [6] Canora F., Sdao F.: Groundwater Vulnerability to Pollution Assessment. Water, 14 (2022), 2205.
- [7] Chakraborty M., Tejankar A., Coppola G. et al.: Assessment of groundwater quality using statistical methods: a case study. Arab J Geosci., 15 (2022), 1136.
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- [9] Czop M., Herbich P., Janica R., Lidzbarski M., Mulik B., Nikiel G., Prażak J., Rodzoch A., Staśko S., Woźnicka M., Zimoch I.: Protection zones of groundwater intakes-risk analysis and design Methodological guide (in Polish), National Geological Institute, Warsaw 2022.
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- [13] Skowera K.: Fusion of differential analysis of volumetric strain method (dilatometric thermoporometry) and mercury intrusion porosimetry method for pore space characterization in carbonate rocks. Structure and Environment, 15(2) (2023), el 009.
- [14] Steiakakis E., Vavadakis D., Mourkakou O.: Groundwater Vulnerability and Delineation of Protection Zones in the Discharge Area of a Karstic Aquifer - Application in Agyia’s Karst System (Crete, Greece). Water, 15 (2023), 231.
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- [17] Patel P., Mehta D., Sharma N.: Assessment of groundwater vulnerability using the GIS approach-based GOD method in Surat district of Gujarat state, India. Water Practice and Technology, 18 (2) (2023).
- [18] Witczak S., Żurek A.: Use of soil-agriculture maps in assessing the protective role of soils for groundwater (In Polish). [w:] Kleczkowski A.S. (Ed.): Methodological basis of groundwater protection, AGH University of Science and Technology, Cracow 1994, 155-180.
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- [21] Database of National Geological Institute [online] 2023. Available from: https://baza.pgi.gov.pl/resources.html?type=mhp&id=816.
- [22] Podawca K., Pawłat-Zawrzykraj A.: The Agriculture and Forestry Lands Level of Changes in Planning Process as a Sustainable Development Measure of Municipalities Located within National Parks Impact Areas. J. Ecol. Eng., 20(8) (2019), 153-164.
- [23] Spatial Information System City and Municipality Office of Bodzentyn [online] 2023. Available from: https://bodzentyn.e-mapa.net/
- [24] Nartowska E., Budzianowski D., Styś-Maniara M.: Assessment of the Thermal Power of Groundwater Intakes in the Kielce District. Civil and Environmental Engineering Reports, 32(4) (2022), 3922.
- [25] Krogulec E., Zabłocki S., Zadrożna D.: Variability of Intrinsic Groundwater Vulnerability to Pollution in River Valley due to Groundwater Depth and Recharge Changes. Appl. Sci., 9 (1133) (2019).
- [26] Reshma R., Sindhu G.: Assessment of groundwater vulnerability to contamination: a case study. Environ Monit Assess., 191 (356) (2019).
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Uwagi
This research was funded by the Faculty of Environmental Engineering, Geomatics and Renewable Energy of the Kielce University of Technology. No SUBB.IKGT 05.0.12.00/1.02.001//SUBB.IKGT.23.002.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-42145971-ab96-4d45-92f4-7bd050c72013